LTE - What's next · LTE – What’s next Meik Kottkamp [email protected] Technology...
Transcript of LTE - What's next · LTE – What’s next Meik Kottkamp [email protected] Technology...
May 2011 | LTE – What’s next? | 2
2013/20142009/2010
Technology Evolution PathGSM/GPRS
EDGE, 200 kHzDL: 473 kbpsUL: 473 kbps
EDGEevoDL: 1.9 MbpsUL: 947 kbps
HSDPA, 5 MHzDL: 14.4 MbpsUL: 2.0 Mbps
HSPA, 5 MHzDL: 14.4 MbpsUL: 5.76 Mbps
HSPA+, R7DL: 28.0 MbpsUL: 11.5 Mbps
2005/2006 2007/2008 2011/2012
HSPA+, R8DL: 42.0 MbpsUL: 11.5 Mbps
cdma2000
1xEV-DO, Rev. 01.25 MHzDL: 2.4 MbpsUL: 153 kbps
1xEV-DO, Rev. A1.25 MHzDL: 3.1 MbpsUL: 1.8 Mbps
1xEV-DO, Rev. B5.0 MHzDL: 14.7 MbpsUL: 4.9 Mbps
HSPA+, R9DL: 84 MbpsUL: 23 Mbps
DO-AdvancedDL: 32 Mbps and beyondUL: 12.4 Mbps and beyond
LTE-Advanced R10DL: 1 Gbps (low mobility)UL: 500 Mbps
Fixed WiMAXscalable bandwidth1.25 … 28 MHztypical up to 15 Mbps
Mobile WiMAX, 802.16eUp to 20 MHzDL: 75 Mbps (2x2)UL: 28 Mbps (1x2)
Advanced MobileWiMAX, 802.16mDL: up to 1 Gbps (low mobility)UL: up to 100 Mbps
VAMOSDouble SpeechCapacity
HSPA+, R10DL: 84 MbpsUL: 23 Mbps
LTE (4x4), R8+R9, 20MHzDL: 300 MbpsUL: 75 Mbps
UMTSDL: 2.0 MbpsUL: 2.0 Mbps
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A strong platform for LTE deploymentWCDMA/HSPA and 1xRTT/EV-DO as basis for LTE
Source GSA and CDG, May 2011
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A strong platform for LTE deploymentWCDMA/HSPA and 1xRTT/EV-DO as basis for LTE
365 commercial C2K 1xRTT & 1xEV-DOnetworks in 125 countries/territories.
120 commercial 1xEV-DO Rel. 0networks in 67 countries,122 commercial 1xEV-DO Rev. Anetworks in 57 countries,
561 mio. 1xRTT & 1xEV-DORev0 & 1xEV-DO RevAsubscribers (Q3/10)
Source GSA and CDG, May 2011
3 commercial 1xEV-DO Rev. Bnetworks in 3 countries
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Introduction20 commercial LTE networks launched by end Q1/2011
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Introduction20 commercial LTE networks launched by end Q1/2011
MetroPCS(Sept 2010)
Telia Sonera(Dec 2009)
MTS/UCell(July/August 2010)
Mobyland /CenterNet(Sept 2010)Mobilkom
Austria(Oct 2010)
Net4Mobility(Nov 2010)Verizon
(Dec 2010)
NTTDoCoMo(Dec 2010)
Vodafone(Dec 2010)
Elisa(Dec 2010)
CSL(Nov 2010)
Multiple radio access technologies
LTE WCDMA GSM CDMA
LTE CDMA
LTE WCDMAEMT
(Dec 2010)
SmartCommunications
(Apr 2011)
Deutsche Telekom(Apr 2011)
Omnitel(Apr 2011)
LTE WCDMA GSM
LTE WCDMA GSM
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3GPP Release 10 and ITU Schedule
l The ITU has coined the term IMT-Advanced to identify mobilesystems whose capabilities go beyond those of IMT 2000.l Enhanced peak data rates to support advanced services and
applications, 100 Mbit/s for high and 1 Gbit/s for low mobility wereestablished as targets for research,
l A major reason for aligning LTE-Advanced with the call forIMT-Advanced is that IMT conformant systems will becandidates for future new spectrum bands.
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The LTE evolution path
LTE Release 8
MIMO OFDMA/SC-FDMA
1.4MHz,…20MHz QPSK, 16QAM
64QAM
Rel-9
? ?
Rel-10
?
l Mainly the following 3GPP Release 9features related to the air interface,l Multimedia Broadcast Multicast Services
(MBMS) for LTE,l LTE MIMO: dual-layer beamforming,l LTE positioningl PWS (Public Warning System)l RF requirements for multi-carrier and
multi-RAT base stations,l Home eNodeB specification (femto-cell),l Self–Organizing Networks (SON).
?
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LTE Release 93GPP RAN#51 – Completion Level Overview
-100%SON
20%100%Home eNodeB
-100%Multi Carrier Multi RAT Base Station
50%100%LTE Positioning
Dual-layer Beamforming
MBMS for LTE
70%100%
5%100%Rel 9
UE Tests (RAN5)Conformance Aspects
Core Specs(RAN1-4)
Feature
l Main area of implementation activity at the moment
l Some interest existing
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Relaying
CoMPCarrier Aggregation
LTE-AdvancedFeature overview
MIMO (DL) 8x8MIMO (UL) 4x4
EnhancedSC-FDMA ICIC
InterCellInterferenceCoordination
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l Two or more component carriers are aggregated in LTE-Advanced in orderto support wider bandwidths of up to 100 MHz,– Support for contiguous and non-contiguous component carriers,
– Each component carrier limited to a maximum of 100 RB (20 MHz) using the3GPP Release 8 numerology (means at maximum 5 carriers, each 20 MHz),
– The following carrier aggregation scenarios shall be considered when appraisingthe feasibility of the RF scenarios and parameters:– Intra- and Inter-band with contiguous and non-contiguous component carrier operation,
l Challenges for a “100-MHz terminal”,– Commercially available RF filter for 100 MHz bandwidth,– Commercially available ADC in terms of sampling rates and quantization rates,– Channel decoding and soft buffer size,
LTE-AdvancedCarrier Aggregation
LTE bandwidth
Frequency
Aggregated bandwidth
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LTE-AdvancedCarrier Aggregation – Specification Work
l Due to time constraints within 3GPP standardization (RAN4 beingthe responsible working group) the following scenarios will beworked on first,
l Intra band is prioritized over inter band,l Additional scenarios may be added at a later stage (release
independent).
TDD2300 – 2400 MHz2300 – 2400 MHz40CA_40
FDD2110 – 2170 MHz1920 – 1980 MHz1CA_1
DuplexMode
Downlink (DL)operating band
Uplink (UL)operating band
E-UTRABand
E-UTRACA Band
Intra band CA operating bands
869 – 894 MHz824 – 849 MHz5FDD
2110 – 2170 MHz1920 – 1980 MHz1CA_1-5
DuplexMode
Downlink (DL)operating band
Uplink (UL)operating band
E-UTRABand
E-UTRACA Band
Inter band CA operating bands
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LTE-AdvancedEnhanced MIMO Schemes
l Up to 8x8 MIMO in downlinkl Up to 4x4 MIMO in uplink
l In addition the downlink reference signal structure has beenenhanced compared with LTE Release 8 byl reference signals targeting PDSCH demodulation
– UE specific, i.e. an extension to multiple layers of the concept of Release 8 UE-specific reference signals used for beamforming
l reference signals targeting channel state information (CSI) estimation forCQI/PMI/RI/etc reporting when needed– cell specific, sparse in the frequency and time domain and punctured into the data
region of normal subframes
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LTE-AdvancedEnhanced uplink SC-FDMA
l The uplinktransmissionscheme remainsSC-FDMA.
l The transmission ofthe physical uplinkshared channel(PUSCH) uses DFTprecoding.
l Two enhancements:l Control-data
decouplingl Non-contiguous
data transmission
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LTE-AdvancedRelaying
l LTE-Advanced extends LTE Release 8 with support forrelaying in order to enhance coverage and capacity
l Relay Node (RN) Type 1l terminates layer 2 and 3 protocols at the air interfacel Creates new cell with own identity
l 3 realizations of Type 1 RNsl Outband (Type 1a)l Inband with and without resource partitioning
Type 1DataCtrl transmission gap
(“MBSFN subframe”)Ctrl
One subframe
No relay-to-UE transmission
eNB-to-relay transmission
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LTE-AdvancedCoMP – Distributed Cooperation Approach
l In this two eNodeBexample the goal is tocrosswise eliminate theinterference betweenthe two cells
l Modifications requiredon top of LTE Release 8l Clock synchronization
between eNodeBsl Synchronous data
exchangel Cell specific pilotsl Channel feedback /
Channel state informationl Precoded Pilots
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LTE-Advanced3GPP RAN#51 – Completion Level Overview
15%90%Multi-standard radio BS RF requirementsfor non-contiguous spectrum deployments
-
-
40%
25%
35%
30%
30%
Perf. Part(RAN4)
100%Further enhancements for eMBMS
95%Enhanced ICIC for non-CA baseddeployments of heterogeneous networksfor LTE
85%SON enhancements
83%Relays for LTE
95%UL multiple antenna transmission for LTE(4Tx postponed to Rel11)
100%Enhanced Downlink Multiple AntennaTransmission for LTE
90%Carrier Aggregation for LTERel 10
UE Tests (RAN5)Conformance
Aspects
Core Part(RAN1-4)
Feature
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Thank youfor your attention!
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Read more…1MA-169 Application Note 1MA-166 Application Note
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